Manufacturing

Welding high temperature and/or high strength materials for aerospace or automobile manufacturing is challenging.

A novel manufacturing method which integrates additive technologies for forming, selective reinforcement and functionalization of thermoformed components.

The intensified, modular packing device can be used to enhance mass and heat transfer for exothermic or endothermic systems, with the objective to reduce the size required of process equipment, which can lead to significant cost reduction.

We have designed, manufactured, and tested the two-layer structured cathodes with solid polymer electrolytes. The cathodes are designed to have two layers: denser "energy layer" facing the metallic current collector and high porosity/low tortuosity "power layer".

Carbon-fiber-reinforced polymers (CFRPs) play a major role in enabling highly efficient energy usage in various applications ranging from aerospace to automobiles and sporting goods, because of their lightweight and robust mechanical properties.

This invention enables utilization of multiple primary energy sources such as electricity, natural gas, hydrogen, propane, biogas in industrial and commercial heating equipment.

Using the current invention one may design composite parts with No based refractory alloys for hotter sections (needing more high temperature strength and creep resistance) while opting for relatively low cost and low gamma prime containing IN718 at zones operating below 1400F

The technology described reduces the porosity from the printed parts in the material feeding line and improve mechanical properties.